TWI357271B - Method for implementing fast-dynamic channel alloc - Google Patents

Description

Γ357271 v VI. Description of the Invention: [Technical Field of the Invention] The present invention relates generally to wireless resource management by wireless communication systems and more particularly to implementing a Fast Dynamic Channel Configuration (F-DCA) Radio Resource Management (RRM) procedure. [Prior Art] In a wireless communication system, radio resource management is usually responsible for using empty inter-layer resources. Wireless resource management is used to ensure quality of service (Q〇S) to provide efficient use of wireless resources and increase system capacity. Radio resource management includes control, parental, power control, and congestion control. Allowable control can be divided into User Allowed Control and Call Admission Control (CAC). The user allows control to accept or reject the radio resource control required by the WTRU (RRQ connection. The user allows control to accept or refuse to establish or modify the wireless access in the Radio Access Network (RAN). The bearer (rab) is placed in the control radio network controller (C-RNC). It has two dynamic channel configuration (DCA) functions, slow dynamic channel configuration and fast motion channel configuration ( S-DCA, F-DCA). Slow dynamic channel configuration can configure wireless resources to cells' while fast dynamic channel configuration can configure wireless resources to bearer services. Fast dynamic channel configuration call admission control (CAC) g can be used to warehouse, Configure or change the real (four) configuration. The actual (4) H acknowledgment call admission control (CAC) will accept or reject the request based on the physical resource availability and interference level in the cell. This requirement is only for uplink and downlink calls. It is accepted when it is admitted. Otherwise, the request is rejected. The quality of the binary certificate service and the minimum interference, the specific fast dynamic channel configuration mi control (cac) calculus is currently implemented. The clock speed dynamic scale configuration 吟 = The 1st implementation of the CAC) calculation has several limitations. Limitation Ξ f The ability to form a core function of the fast dynamic channel configuration of the beer call allowable control (CAC) calculations depends on the signal 4 = Wei Weili compares Wei Qianlai. The second new lion lion release) like the past implementation of the charm = ί variant of the two fast dynamic channel configuration function is in the steady state line Wei Wei Wei line: - the background interference is reduced - for the Yi Qi Qiao riding configuration background dry The order (4) is used to re-establish the wireless poor source (time slot and code) to the existing wireless resources for use at a reasonable level. Fast dynamic channel configuration. Manage money by wireless side. Touching the landscape interference; t ^ mm "Two viewings _ dao configuration calculus has a fairly low priority π 快 快 fast λ dynamic channel configuration escape mechanism is used to solve the user's chain % of the existing high interference or can not borrow By reassigning the wireless resources, the user service can be used as: Network ( (4) Better operation in control wireless This says: because a function output can affect the decision of another function. If this is spread, The priority of the power is to reduce the ίίίίϊ1^__) second operation' while the background interference parent is used to convert the call from one cell to another to maintain the wire. Adding a new ϋίί i to i 纠 ^ ^ 有 脉 有 有 有 有 有 有 有 建立 建立 建立 建立 建立 建立 建立 建立 建立 建立 建立 建立 建立 建立 建立 建立 建立 建立 建立

In the established mode, the wireless bonding setup procedure is used to build the wireless resources required for a new wireless link for barking or non-instant service. The None, I Wireless Link Reconfiguration procedure is used to attach, modify, or tie any physical resource. Fast Dynamic Channel Configuration Call Allows Control (CAC) Control to receive secret messages.吟 卩 及 and non-instant service ^ speed _ channel configuration ^ the best implementation of bribery 'and it can overcome the known calculus, ...', pre-J provides improved escape mechanism and background Implementation. Further, it is expected to provide a fast dynamic channel configuration call admission control (CAC) calculus for wireless terrestrial, which is suitable for immediate or non-instant service, and which can overcome known calculations. The shortcomings. SUMMARY OF THE INVENTION The present invention improves and optimizes the known fast dynamic channel configuration calculation by modulating/classifying the fast dynamic channel configuration calculation function and making the input of the core channel configuration function of the court and calculation independent of the signal message. . More particularly, the signal-dependent (=gnal-dependent) fast dynamic channel configuration call admission control (CAC) calculus of a particular function in a previous implementation is changed to signal-independent by the present invention, such that the changed function is The escape mechanism can be reused in the implementation. The present invention is illustrated by layer 3 in the time division duplexing scheme, but is also applicable without being limited by other transmission modes. The current development of the third generation of wireless telecommunications systems requires up-to-date and efficient wireless resource management. The present invention provides an optimal implementation of fast dynamic channel configuration algorithms in wireless resource management. The inventive method can modulate and modify the fast dynamic channel configuration algorithm into three processes: pre-coding configuration, encoding configuration, and post-coding configuration. The function signals in the pre-coding configuration processing and the post-coding configuration processing depend on each other, and the functions in the configuration processing are independent. The pre-coded configuration process is used to explain how and where to retrieve information from the input message and database, and how to prepare the input required for the code configuration process. Post-coding configuration processing is used to determine what information should be stored in the database and what information should be provided to the output message. The modulated functionality of the present invention can be reused by other wireless resource management algorithms in both immediate and non-instant service. The present invention provides a fast, state channel configuration call admission control (CAC) calculus implementation for wireless link setup procedures in wireless resource management. The fast dynamic channel configuration call admission control (cac) calculation method in the optimized wireless communication system includes pre-coding configuration processing, signal independent coding configuration processing, and post-coding configuration processing. The pre-coding configuration process includes receiving and processing the request message and obtaining the system# measurement and information from the towel-type database. The encoding process begins by examining the available codes in the cell and the sequence of time slots that produce the available time slots. The code group is assigned to the available time slot in the time slot sequence, where the success assignment is a solution. The Interference Signal Coding Power (ISCP) is calculated for each solution, and the lowest weighted interference signal coding power is selected as the most solution. Post-coding configuration processing involves storing configuration information in a centralized resource and establishing a response message. The fast dynamic channel configuration correction control (CAC) method used in the wireless communication system begins with receiving and processing the request message to activate the call admission function. Node Β Measure, use time slot table list and edit “ ” to retrieve the self-collected database... The group code is configured to the available time slot ′ and the configuration information is stored in the centralized database . It is conveyed that the present invention provides a method for implementing a wireless resource; I; a fast = method of increasing the system by the following operation ^== pipe speed dynamic channel configuration escape mechanism is a wireless resource code machine / The Wei unit (_) is the slot interference, and the code receives the connection (DL) time. The money coding power is the same value or the different value threshold is the design parameter, and the maximum allowable transmission power can be reached for the node B. Through the wireless tampering (four) quick-moving fine-tuning configuration method Γ 357271 contains the signal independent coding configuration program and the post-coding configuration program. The post-coding configuration program can receive the touch signal, and the wireless transmission/receiving unit (WTRU) measurement and the node B measurement are obtained from the radio resource control shared cell database, and the cell configuration information and the wireless transmission are obtained from the centralized library. / Receive Unit (WJRU) information, which is determined by the candidate coded composite transmission channel to be reassigned, and the candidate code to be reassigned. The code configuration program can check the available codes in the cell, check the transmitted power of the inter-slot, check whether the interference signal coding power (SCP) of other time slots is lower than the candidate time slot, and generate the available time slot. The time birch sequence assigns the candidate code group to the available time slot in the time slot sequence, wherein the work assignment is a solution; the interference signal coding power (ISCP) of each solution is calculated; and the solution with the lowest weighted interference signal coding power is selected as the most Good solution. The t match can be used to reconfigure the request message. Λ ‘The fast dynamic channel configuration escape party in the wireless communication system = Receive and process the ride signal to start. The no-transfer/receive unit (WTRU) and point-to-point B-measurement systems are retrieved from the centralized database and the assigned physical resources are determined. The code group is configured to be available 睥 B New 曰 =: The needle is set to t.达达匕3 This new WTRU's new configuration, 'for t, resource management, fast flip, track configuration background background interference reduction program method package t order state month with h touch signal Candidate time slot from radio resource, unit (thoracic) measurement and node B quantity == cell-receiving radio transmission/reception single-right TRU) (-for the uplink direction and the candidate coding of the re-assignment assignment) The code and decision will be re-examined for the queue 敝8; the candidate code group is assigned to the available time slot in the time slot sequence, where the success is the solution; the interfering signal coding power (ISCP) for each solution is calculated; The solution with the lowest weighted interference signal encoding power is the solution. The post-coding configuration program ^ stores the reconfiguration information in the centralized database and establishes the physical channel reconfiguration request message. Implements the fast dynamic channel configuration in the wireless communication system. The method includes pre-coding configuration processing, signal independent coding configuration processing, and post-coding configuration processing. The pre-coding configuration processing system starts with receiving the timing trigger signal. The system measurement system is retrieved from the centralized database. The re-assignment of the resource is determined based on the quality number. The code configuration program checks the available code groups in the cell and generates the time for the available time slot. The slot sequence is the start. The coded $ is assigned to the available time slot in the time slot sequence, where the successful assignment is clever. Interference #Coded Power (ISCP) is used to calculate the solution and has the lowest weighted interference signal coding power. The system is selected as the best solution. The reconfiguration system is stored in the towel database. The real information (4) channel reconfiguration request message is transmitted. The present invention is for wireless communication in wireless resource management. The link add-on program 'fast dynamic channel configuration call admission control (CAC) calculus. Implementing the fast dynamic channel configuration call admission control (CAC) calculus method in the wireless communication system includes the transaction of the ship, the processing of the code, and afterwards Coding configuration processing. The pre-encoding processing includes receiving and processing no-send additional requirements = information and retrieval from the centralized database. The processing system includes the available hashes in the test cell; generating the time slot phase; assigning the code group to the available time slot in the time slot sequence, which makes the successful assignment system a solution; calculating the solution of each solution, the signal network solution ( IS〇>); The choice has the lowest weighted pre-signal coding power = (ISCP) is the most accurate. Post-embedding brown configuration processing involves storing the configuration information in a centralized database and establishing a wireless link additional response message. The fast dynamic channel configuration for the wireless communication chain of the #线通信系统 t = called Yunxin AQ calculus Yang Xiwei Qian Lai additional request message to start the call admission control (CAC) function. The request message is processed ' And (4) the slot engraving and coding group list is retrieved from the centralized data pumping = code group is configured in the rhyme cell, and the configuration information system is in the pin (4) library. No __ pure response message transmission coding configuration processing result. The present invention provides a fast dynamic pro-configuration call admission (C) calculation that implements wireless link reconfiguration 2 in radio resource management. To implement wireless ^, the fast dynamic channel configuration call admission control (CAC) operator in the system includes pre-coding configuration processing, signal independent coding configuration processing, and post-processing processing. The pre-programming process includes receiving and processing request messages and retrieving system information from the Chinese-style database. The encoding configuration processing includes checking the available encoding groups in the cell, generating a time slot sequence; assigning the encoding group to the time slot sequence = available time slot, wherein the successful assignment is a solution; calculating the interference signal of each solution is ff (ISCP) And selecting the solution with the lowest weighted interference signal coding power as the optimal solution. Post-coding configuration processing involves storing configuration information in a centralized repository and creating response messages. The Fast Dynamic Channel Configuration Call Admission Control (CAC) algorithm for wireless link reconfiguration in a wireless communication system begins by receiving a request message to initiate a Call Admission Control (CAC) function. The request message is processed and the time slot table and the code group list are retrieved from the centralized database. The code group is configured to the available time slot' and the configuration information is stored in the centralized database. A response message with the result of the encoding configuration process is then transmitted. The invention will be described in more detail in the following description of the preferred embodiments and the accompanying drawings. [Embodiment] Calling Allowance Control (CAC) of the Wireless Link Setup The Fast Dynamic Channel Configuration Call Admission Control (CAC) Logic Overview 100 of the Badline Link Setup Procedure 102 is shown in the first figure. Fast Dynamic Channel Configuration Call Admission Control (CAC) Logic 1〇2 main functions consist of three parts: pre-coding configuration processing 1〇4, encoding configuration processing 1〇6, and post-coding configuration processing 1〇8. The pre-encoding configuration process 104 can read from the wireless link setup request message no no 1357271 ί single private ^ then measure 'from the wireless resource control shared cell database 112 5 卽 卽 置 置 置 置 置 , , , 置 置 置 置Secondary source management, material, 116_ available time slot table list and compiled table from (#"3 (OAM) hotline resource management table database η4. ',, 'edited: work, processing, can Checking the hunt of the tune, generating a time slot sequence 'Finding the code group's transfer (assignment code; slot), and from the radio resource management cell database 116: 卞 编码 code. Post-code configuration process 108 The department is responsible for the vertical (======================================================================================================舅 于 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在Inter-county county, specific #料Scale's compiled table to take advantage of the line j, then = 兀 (WTRU) performance information ' The encoding configuration processing ^ to the warship processing threat entity pro-wei (time_face and = : ί2ΐοΐ encoding) is transmitted from the encoding configuration processing 106 to the post-coding 1 in the present invention, the fast dynamic channel configuration call allows to control the rapid dynamics of Zeng Jianyan Channel configuration 0 is called the admission control (CAC) calculus function ^ two power can be: the signal-dependent function of the round signal signal part, and the domain of the domain information is independent Wei. The inspection number depends on ^ 目: Qian Qiao Wei's * test. Can ===£Τ= 乂〇! The function is signal dependent, the function of the ground, the flat code configuration processing 106 is signal independent function. The function of the deer Λ 06 can be borrowed By, for example, exchange, fast capture dynamic channel ί fast dynamic channel configuration background interference reduction calculus other benefits, 'Bei, officially applied to other programs to reuse. ', *,,, wireless link establishment rapid dynamics Channel Configuration Call Admission Control (CAC) 1] Γ35727Ι

The flow chart of the calculation function is shown in the second a_c and the third a seven. The second a_c diagram shows the main interface function 200 of the Fast Dynamic Channel Configuration Call Admission Control (CAC) calculus established by the wireless link. The function 200 begins by obtaining a wireless link setup request message (hereinafter referred to as a "request message,"; step 202) and extracting parameters from the request message (step 204). The request message includes a coded composite transmission channel (CCT) ^:H) Information 'DCH' information, with or without wireless transmission/receiving unit (WTRU) measurement of wireless link information and wireless transmission/reception unit (WT^J) performance information. The parameters of the message include WTRU identification, cell identification, wireless link identification, and WTRU performance information (maximum physical channel number per time slot and maximum time slot per frame) The entry identification of the wireless dual source management cell database is obtained (step 2〇6). Next, it is determined whether the wireless transmission/reception unit (WTRU) including the downlink interference signal coding power (DL lscp) is measured. Included in the request message (step 208). If the WTRU (wjru) measurement is not included in the request message, then a check is made to determine if all dedicated channels are non-instant; step=0^212). If all The use of the channel is immediate, the status flag is set as the failure condition (step 214) and the function is terminated (step 216). The failure condition means that the wireless transmission/reception unit (WTRU) has no physical resources available. All are only = ^ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ , m = the channel is configured for the current coded composite transmission channel (CCTrCH) (step ^ channel is configured after the system determines whether the resource configuration is successful (step 220). = if the source configuration is unsuccessful, the status flag is set Loss, 2=) and function, (step 216). If the resource configuration is successful (step·', (then...line transmission/reception single tg(WTRU) entry is established and the benefit line is recorded in none (Step 222) The information recorded to the WTRU entry includes the WTRU 12 1357271 (y^RU) identifying the 'transaction identification' uplink wireless transmission/reception unit (stomach_performance) ^ News, connected to the wireless transmission / receiving unit (WTRlWi energy information, and wireless link information. The transmission/receiving unit (WTRU) performance information includes the maximum number of T slots per frame and the maximum number of uplinks per time (10). The downlink wireless transmission/receiving unit (WTRU) performance information includes the maximum number of slots per frame and The maximum number of physical channels per time slot is selected. The no-knot information includes rogue system, cell identification 'uplink coded composite transmission channel information and downlink coded composite channel information. Coded composite transmission channel (CCTrCH) information includes coding Synthetic Transport Channel (CCTrCH) identifies 'Coded Synthetic Transport Channel (CCTrCH) Status' code synthesis^ transmission frequency, (a: TrCH) signal-to-interference ratio (SIR) target, data fasting 2 allowed data rate, and dedicated physical channel (DPCH) information. The dedicated entity channel contains the time slot table, the training sequence (midamble) shift and the burst type = two transport format coding indicator (TFCI) presentation and coding information. The coded information contains the coded 'coded state' dedicated real (four) track identification and coded signal pair interference target. The physical channel information and power control information is placed in the wireless link setup message (step 224), and the status flag is set to indicate success (step eve and function termination (step 216). The physical channel information includes each time In the slot, the slot surface and the parent code. The time_Wei includes the $(four) period and the repeat controller includes the uplink target letter ratio, the maximum uplink, and the interference ratio 'minimum uplink signal to interference ratio. The transmission power, the transmission power of 1 connection, and the maximum allowable uplink transmission power. The present invention - ^ from the second structure view to request the message response message, because the two messages contain a large amount of shared information. (Step right if message There is an available wireless transmission/reception unit (WTRU) measurement request, and the WTRU measurement system is obtained from the wireless money, control sharing. Cell Node B Node 3 measurement includes shared measurement and dedicated measurement. Node rate: 2 m * even interference money code identification and Qilian transmission carrier power " *Special measurement includes downlink transmission coding power. The next code 13 13 if the input pro-wei _ (step 23G) ' And obtaining the service type of the Chootic Selective Coding Synthesis Channel (CCTrCH) (step 232). If the service type is immediate ^, step 234), the available time slot in the cell is determined (step 236). Available (surface 'pulse status is set to fail as 'month condition (v骒 214) and function terminated (step 216). If a time slot is available (step 238), the requested data rate is counted Different (j 240). The encoded data rate of the calculated data rate is obtained (step 242), and the J-code synthesis transmission channel (CCTrCH} physical channel (time slot and encoding) is broken configuration, and the best solution is Once found, it is recorded (step 244). The configuration function in step 244 is discussed in more detail in the following figures a and 3). If the resource = failure (step 246) 'the status flag is set In the case of a failure (step 214) and the function is terminated (step 216). The right lean source configuration is successful (step 246), then it is determined whether there is a 2-mixed mother transmission channel to be checked (step 248). If the resource configuration is successful, Then decide whether there is an additional coded composite transmission channel to be checked (step: if there is The additional coded composite transmission channel to be checked, the next j-compositing (CCTYCH) ride (money 25G), and the function continues to step 231. If there is no additional coded composite transmission channel to be checked (step -, then Whether the coded composite transmission channel has been checked (step 252). = the uplink coded mixed transmission county has not been checked, (4) - the uplink coded composite transmission frequency is selected (step 254), and the function continues in the step 232. If all of the coded hinges have been considered (face 252) can be as in step 222. If the wire is not instantaneous (step 234), the available time slot in the cell is ί ίί f ). If nothing is available (step 258), the check flag is not flagged as a failure condition (step 214) and the function is terminated (step 216). If there is a coherent slot (step 258), then the rate of the bee for the non-instant service is determined (step 260) and the highest data rate is selected (step 262). The coded group of the selected data rate is obtained (step 264), and the normal temporary dedicated parent of the current choreographed transmission channel (COYCH) is configured, 1357271 and the best solution is recorded if found (step 266) . It should be noted that steps 244 and 266 are essentially the same; in non-instant service, the dedicated channel is temporary. If the resource configuration fails (step 268), it is determined if there is an additional data rate to be checked (step 270). If there are no other data rates to be checked, the status flag is set to indicate a failure condition (step 214) and the function is terminated (step 216). If the resource configuration is successful (step 268), the function continues as described above in step 248 应 ' It should be noted that in steps 230 252 and 254, either direction (down or up) may be performed first. As described above, the lower direction is checked in preference to the upper direction. Function 200 will operate in the same manner, otherwise the connection will be checked first. - Steps 244 and 266 are related to the call fast dynamic channel configuration algorithm to configure the body channel. This core function 300 is signal independent and is illustrated by the third and b diagrams. Function 300 begins with receiving a code group and an available time slot as input (step 302). The first coding group is selected (step 3〇4) and it is determined whether the coding group is available for the cells (steps 306 and 308). If the selected coding group is not available in the cell, it is determined whether or not there are more coding groups to be checked (step 31A). If there are more code groups, the next code group is selected (step 312)' and the function continues at step 3〇6. If there is no coding group, then the indication fails. The 'sense label is set to mark the scale (step 314) and Wei terminates (step 316). 〇 ϊϊϊ ϊϊϊ ? 编 编 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 3 3 3 3 3 3 3 3 3 3 3 The resource elements required for the coding group in CCTrCH) are calculated (steps are generated ((4) 32〇), and the first time slot sequence is 322). The lower or upper direction is then determined (step 350). If you are in the middle, try to assign the current lower code group into the current time slot 3^0 slot (step sound if the link direction is up) (step iH line up the code group into the current time slot sequence of cocoa [J^, B Feng 354). In an alternative embodiment of the invention (not shown), step 350 is adapted. * Steps 352 and 354 can be combined into a single step to provide the most recent 15 attempted assignment of the current coding group. To the current copper trough towel (step, after 3 calls, it is decided whether the assignment solution has been found (step code indicates that the coding group was successfully assigned to the current time _ sequence). The solution was found. (lscp)^ Mosquito, the rate solution is regarded as the best solution and is recorded, (step 358) The three right % are not found, then step 358 is skipped. Next, decide whether there is any additional time to be considered Step 360). If there is an additional time slot sequence, the next time slot sequence is selected (step 362), and the function continues at step 35. If there is no additional time slot + step 360) ', then it is determined whether the optimal solution has been Found (step 364). If the best = is found, the function continues at point c of the call (ie, step „function). If the best solution is found, the listening secret is set to indicate successful assignment (step 366) and the function is terminated (step 骡316) ', Fast Dynamic Channel Configuration Call Admission Control (CAC) calculus 1 functions 352 and 354 are signal dependent. In the present invention, these two functions are capable. The related functions used for these two functions are also It has been modified to become a separate function of the phlegm. Because of the input of the function 352, 354, the message (such as inputting the message, the function 352, 354 can be noticed by other benefits of the fast dynamic channel configuration call control (CAC) The implementation is exemplified and can be further optimized. The summary of the fast dynamic channel configuration escape program 4〇2 is shown in the first function of the dynamic channel configuration escape program 402. = Go ahead of the code configuration process 404, the code configuration process 4〇6 and the post-code process 4〇8. The pre-code configuration process 404 begins with the receive measurement touch two, two ί^. ί two measurement touch signals, wireless Transmission/connection The unit ^ is ^): must be ^, and node] 3 measure the touch signal. The wireless transmission / receiving unit (wtru) ^ test ^ 3 contains the wireless transmission / receiving unit (WTRU) identification and time slot number table, and node B The measurement touches the number of slots included. The bypass procedure starts at 1257271 to receive a WTRU measurement signal or a Node B measurement signal. The pre-coding configuration process 404 can control the shared cell database from the radio resource. 412 is informed of the B-point measurement and the wireless transmission/reception unit (wjru) measurement, and the blind resource configuration information is obtained from the line resource management cell database 416, and the wireless resource management wireless transmission/reception unit (WTRU) database 418 is obtained. Obtaining WTRU performance information, determining a re-assigned composite transmission frequency (CCTrCH), calculating a WTRU path loss, and determining a candidate coding group to be reassigned, And obtaining the list of available time slots. The pre-encoding configuration process 4〇4 can be prepared for the input of the encoding configuration process 4〇6. The encoding configuration process 406 can check the encoding usability in the cell, and check the candidate 2f f transmission fetch) power 'check other _ 干扰 钱 ί ί 功率 功率 疋 疋 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 低于 干扰 干扰 干扰 干扰 干扰 干扰 干扰 干扰 干扰 干扰 干扰 干扰 干扰 干扰 干扰 干扰The group's solution (borrow, assign the candidate code group to the available time slot), and select the solution with the lowest weighted interference k code power as the best solution. The post-code configuration process 4〇8 system will be the latest configuration physical channel Recorded in the RRC radio transmission/reception ^ (WTRU) database 418 towel and fill the physical channel reconfiguration request message 420 with the physical channel information. In addition to processing and data exchange between databases, data exchange is also directly generated. Wireless round/receive single S (WTRU) measurement, node B measurement, cell slot list 'candidate marshalling group and WTRU's spoofing system are transmitted from pre-encoding configuration processing 404 to encoding configuration Process 4〇6. The physical channel information (time slot table and channel code in each time slot) is transmitted from the code configuration process 4G6 to the post-code configuration process 4〇8. In the present invention, the function of the fast dynamic channel configuration escape calculation 4〇2 is adjusted. The power: the signal dependence function of the input part of the input and the signal independent function of the input signal signal. The 11-point signal-dependent function and the signal's unique purpose are the repetition of the independent function of the signal. Pre-coded - the geographical 4 〇 4 and post-compilation configuration processing - the function is signal dependent work 17 1757271 can. In contrast, the functionality of the encoding configuration process 406 is a signal independent function. The re-use of the independent function month is based on the reuse of the signal-dependent function. This feature is dependent on the k-number dependency to be converted to an apostrophe independent in the preferred embodiment of the invention, thereby increasing the reusability of the converted function. The functional flow chart of the fast dynamic frequency configuration escape program is shown in the fifth, a and b charts. The fifth and a diagrams show the flow chart of the main escape calculation. The system starts by receiving the input from the touch signal (step 5〇2). The entrance identification system of the β radio resource management cell database is The radio resource management cell g library is retrieved (step 504). The WTRU (Trading 1111;) measurement and the Node B measurement are retrieved from the shared cell database (steps 5〇6). With the link, the time slot link direction is determined (step 5G8), and the time slot with the worst bond problem is located. The candidate coded composite transmission channel to be re-private is based on the escape device 5ω). The escape program is triggered by the wireless transmission/tru in the time slot from the next consecutive code. At this time, the pure shirt (Wei U) encodes the synthetic transmission channel. The downlink coded work 3 is measured by the WTRU, and the program ί is touched by the WTRU. = plus the path loss value and the one that will be reassigned. The power of the teacher's face tree, with the coded composite transmission of the ί node b to the amount of tj B power is triggered by the number. 5 L out of the program is found by the node B measurement test furnace ^ ^ code synthesis transmission channel (step 512), the function of the furnace mark is broken _ things smooth (mail 1 program termination 13.57271 ^ candidate knitting into a transmission channel Found (step 5i2) from the radio 1 to manage the radio transmission unit step 518) ° scale transmission / receiving unit (WTRU) 俜 and 俜 f (step 52G) 'and candidate code to be reassigned After the poor trough is based on whether the transmitted transmission power of the interfering signal is less than the transmission power of the given time slot, the second art, the coded power (ISCP) gate insertion and the transmission power gate are designed to be coded. Reassigned (step 524), the status flag is set to indicate no failure (step 514) and the program terminates (step 516). The # s right has a reassigned code group (step 524), and the reassigned second stone '', the available pay slot is retrieved from the central repository (step 526). If no time is available; ff (step 528), the flag is set to indicate a failure condition (step 4 = 4) and the program terminates (step 516). If there is a time slot available (step 528), the gamma channel (time slot and code) is configured for the coded composite transmission channel (CCTrCH) (step 530). If the physical channel configuration fails (step 532), the status flag is set to fail (step 514) and the program terminates (step 516). If the resource configuration is successful (step 532)' then the new entity channel information is recorded in the Radio Resource Management Radio Transmission/Receive Unit (WTRU) database (step 534). As long as the best solution is found = then the resource configuration (step 532) is considered successful. Physical Channel Information Packet = Dedicated Physical Channel Time Slot Information 'Repeat period value and repeat length value. The dedicated channel time slot information includes the number of slots, the training sequence shift and the burst type 'transport format coding indicator presentation and coding information list. The coded information includes the channel code 'code usage status', the dedicated physical channel identification and the coded signal pair interference target. The physical channel information is also placed in the physical channel reconfiguration request message (step 536). The status flag is set to indicate success (step 538) and the process terminates (step 516). The physical channel reconfiguration request message includes the following resources: 19 control wireless network controllers to identify the frequency = signal, and the next link to the serial code synthesis and synthesis i ^, f = have (4) called the fast _ channel configuration escape program Configuration 3!; Γ can. This core function is signal independent and = S?=== :ns 606 and 608) (step:: medium; medium is: with the coding group (step will be checked in the code = mouth = 6^' Iimf, Wei (step 612) and Wei_ in the step labeling system are set to: abruptly:) the first 316; the third b)). Township, “b diagram” and the function is terminated (step is set to: 'two; '.=; is: ==, type: step. If the fast dynamic channel configuration type is: ESCAPE”, then ^^ f is Set the mark without solution (step 314) and the work is terminated (step; 16; i' scrambled signal, power (ISCPX (four) 624). If there is no other low-interference piece b)) 20 1357271 if there is a lower interference signal Another time slot of the coded power (ISCP) (step 626) or if the fast dynamic channel configuration type is "rbsexup" (step 618), the required resource elements of the code group in the code synthesis transmission channel (CCTrCH) are Count different steps 骡 640). A time series is generated for the available time slots (step 642), and the first time series is selected (step 644). The method continues at step 350 as in the third b diagram above. If the fast dynamic channel configuration type is "background, the steps performed (step 618) are discussed below. Background Interference Reduction - Overview of the Fast Dynamic Channel Configuration Background Interference Reduction Program 702 is shown in Figure 7. Fast Dynamic Channel Configuration Background Interference Reduction Program 7 〇 2 The main function of this system consists of two parts: pre-coding configuration processing 7〇4, encoding configuration processing 706, and post-coding configuration processing 7〇8. The pre-coded configuration process 7〇4 starts ^ receiving the background timing touch signal 71〇. The pre-coding configuration processing 7〇4 can obtain the population identification of the f-line resource management cell database 716, obtain the node B measurement from the wireless dragon, control & total j-resource database 712, and determine that the re-assignment is to be configured into the transmission channel. (CCTrCH), calculate the WTRU, path loss, determine the candidate time slot to be reassigned (one uplink time slot and two I time slot), from the radio resource management cell database < 710 search will be used: re-assigned the list of available time slots, determine that the secondary direction will be reassigned the secondary f-selection code group, and obtain wireless from the RRC WTRU. Transmitting/receiving unit (WTRUy & information, and "·, line transmission/reception unit (WTRU) path loss., #编码 配置处理706 can check the coding availability in the cell, check the transmission of the slot (four) power 'search The assigned solution of the coding group of the time slot sequence (by the candidate coding group to the available time slot), and the solution with the lowest weighted coding power (ISCP) is selected as the optimal solution. The post-coding configuration processing 7〇8 system Two shells, face configuration entity pro-hidden wireless resource management wireless transmission / receiving heavy, silk thief: #转入的实体频道 21 f·» 357271 In addition to processing and data exchange between the database 'data exchange is also directly generated in Between the processing, the WTRU measurement, the Node B measurement, the available time slot table in the cell, the candidate coding group and the WTRU performance. Processing 706 is performed. The physical channel information (each slot coding) is transmitted from the encoding configuration processing 706 to the post-coding configuration processing 7-8. In the present invention, the function of the fast dynamic channel configuration background interference reduction program 7〇2 is broken into two groups. Wei: The signal that the input signal is part of the signal is dependent on the power of the letter. The signal is independent of the letter of Wei Wei. The purpose of distinguishing the signal depends on the function of the function and the independent function is to increase the reusability of the signal independent function. The functions of the first coding configuration process 704 and the post-coding configuration process 708 are nickname dependent functions. In contrast, the code configuration process 7 〇 6 can, therefore, the 'signal independent function sufficiency is high and the second repetition is secret. Essentially The specific function of the signal dependence is based on the fact that the method of the invention is based on the trust of the credit, and the repetition of the function is used to make the secret. The fast, dynamic touch background background pre-down procedure Wei's flow chart is jTF The first person a, b' six and three 13 pictures. The first heart and the picture show the background interference drop, ^ 800 main function flow chart, which is identified by searching the radio resource management cell mouth (step 8〇4) Start (step 8 〇 2). Wireless transmission / H early WTRU measurement and node measurement system is retrieved from the shared cell database (4 8 〇 6). Re-referring to the rich candidate time slot based on the time slot measurement factor Even the time slot and the next time _ (step _. with the lowest measured ϋ ϋ 槽 is selected as a candidate for reassignment. If no reassignment 81 〇), the status flag is set to indicate failure (Step 13⁄4 fiin, program termination (step 814). If there is a time slot that is reassigned (step ί knot direction is set to lower (four) 816). It should be noted that the chain direction is estimated to be arbitrary, regardless of The connection or the connection can be evaluated first. The available time slot in the cell in the direction of the link is retrieved (step) ° There is no time slot available on the right (step 820) 'The status flag is set to mark 22 丄357271 is a failure condition (step 812) and the program terminates (step 814). If there is a time slot available (step 820)' then the available time slot list is updated to exclude candidate time slots (step 822). The coded group to be reassigned is determined in the time slot based on the coded measurement factor (step 824). The coding system with the lowest measurement factor is selected as the candidate for the assignment. If there is no reassigned code group (step 826), the status flag is set to indicate a failure condition (step 812) and the program terminates (step 8121 if there is a reassigned code group (step 826), then wireless The transmit/receive unit (wtruh biometric information is retrieved from the wireless transmission/reception unit (WTRir) database (step 828). The path loss of the WTRU is calculated (step 830)' The physical channel of the current coded composite transmission channel (CCTrCH) is re-sent (step 832). If the channel reassignment fails (step 834), the status flag is set to indicate a failure condition (step 812) and the procedure terminates. (Step g 814) If the channel reassignment succeeds (step 834), it is determined whether the link direction is the current connection (step 836). If the link direction is the current connection, the link direction is determined as 1 Connected (step 838), and the method continues at step 818. If the current link direction is uplink (step 836), then it is determined whether the upper coded composite transmission channel and the downlink coded composite transmission channel will be reassigned. Same WTRU (steps) 84〇). If the coded composite transmission channel (CCTrCH) to be belonged to a different WTRU, the locator is reassigned by the WTRU (step 842). The same wireless transmission/reception unit is blocked by ^=^ Pinu (transfer 842), and the physical channel configuration information is recorded in the WTRU's database (step 844): ί ΪΪ ίίί using the physical channel Time slot information, repeat period values, and sequence shifts and __, 袼-coded pure presentation and 2 columns. The coded Wei system contains channel coding, and the code uses ", channel identification" and compiles the signal interference ratio target. Body frequency 23 IJ57271 Free two-body frequency configuration information is also recorded to the physical channel reconfiguration request message: Medium (^ 846) 'The status flag is set to mark "success" (step 848) and process ϋΐ step 814 If the flag indicates that the two WTRUs have re-assigned the coded composite transport channel (CCTrCH) (step ^2): then the corresponding entity for the two WTRUs Channel Bay = is recorded (step secret), and two real_channel reconfiguration The message is transmitted (step 846). ♦ The new configuration request message includes the following information: WTRU identification, control wireless network controller identification, 1 link identification, radio resources Control transaction identification, uplink coded composite transmission channel, and downlink coded composite transmission channel information. Step 832 is related to call fast dynamic channel configuration background interference reduction procedure 5=work to reconfigure physical channel. This core function is signal independent and is illustrated by the sixth and third b diagrams. Since the following accompanying steps are performed with the background interference reduction program, the function 600 operates in the same manner as described above. The background interference reduction procedure ten, the fast dynamic channel configuration type is set to ^ackg^dund", and it can be set in any step before step 832. If the fast dynamic channel configuration type is "BACKGROUND" (step 618), the candidate The transmission power of the four slots is checked to determine if it is greater than the minimum required transmission power (step 630). If the transmission power of the candidate time slot is less than the minimum value (step 632), the status flag is set to indicate no solution (step 314; third b picture) and work is terminated (step 316; third b picture). If the transmission power of the candidate time slot is greater than the minimum transmission power (step 632), then the program continues at step 64 above. The Wireless Link Attached Call Admission Control (CAC) Wireless Link Attached Call Admission Control (CAC) program overview 9 is shown in Figure 9. The main function of the Fast Dynamic Channel Configuration Call Admission Control (CAC) procedure 902 consists of three parts: a pre-coding configuration process 904, an encoding configuration process 906, and a post-coding configuration process 908. The pre-coding configuration process 9〇4 can read the wireless transmission/receiving unit (WTRU) measurement from the wireless link attach request message 910 (hereinafter referred to as the “request message”), and control the shared cell source g library from the radio resource 24 1357271 The measurement 'retrieves the coded composite transmission channel (CCTrCH) information, the dedicated information and the wireless transmission/reception unit (WTRU) performance information from the radio resource management wireless transmission/reception unit®'s library 18. The pre-coded i-process 904 is also The new cell slot list can be retrieved from the radio resource management cell database (10): from the radio resource management radio transmission/receiving unit U) the poor material library 918 obtains the coded composite transmission channel (CCTrCH) data speed ¥ 'and the slave operation and Maintain the radio resource management table database m to obtain the marshalling group. The encoding_processing 906 can check the encoding availability in the new cell, generate the available time slot, and search for the encoding group (the encoding in the encoding group to The time slot is used, and the channel coding is configured from the coding vector in the radio resource management cell database 916. The post-coding configuration process 908 is responsible for updating the radio resource f cell directory. Coding vector information, record new wireless wireless link information and physical channel information in the RRC transmission and reception unit (WTRU) database 91", and record code synthesis transmission channel (CCTrCH) information, dedicated channel information, dedicated Physical channel information, uplink interference signal encoding power information and power control information in the wireless link additional response 920. μ In addition to processing and data exchange between the database 'data exchange can also occur directly between processing. Wireless transmission / reception Unit (11^1;) measurement, node quantity ^, available time slot table in cell, code group list of specific data rate and WTRU performance information, from pre-coding configuration The process 94 is transmitted to the code configuration process 906. The physical channel information (time slot table and channel code in each time slot) is transmitted from the code configuration process 906 to the post-code configuration process 908. The function of the fast dynamic channel configuration call admission control (CAC) program 902 attached to the wireless link is converted into two sets of functions: the input is the information department. The signal relies on the function and inputs the signal independent of the signal message. The purpose of separating the signal dependent function and the signal independent function is to increase the reusability of the independent function of the letter U. The functions of the pre-encoding configuration processing 904 and the post-processing configuration processing 908 are signal dependent functions. In contrast, the Ma Ma configuration processing 25 1357271 - unique function: Therefore, the repetitive use of the signal independent function is the reusability of the second day. In essence, it is the specificity of the signal dependence, and the good and bad feelings of the money are the same as the signal, which increases the reusability of the conversion function. The fast dynamic channel configuration call admission control (CAC) primary power 1000 for wireless link-attached fast dynamic frequency link add-on programs. The function 1000 begins with obtaining a wireless bonding add-on request heartbeat gamma step 1002), and from the request message _takes the WTRU to identify 'new wireless link identification and new cell identification (step 1〇〇) 4). The request message also includes the presence or absence of a WTRU's wireless link information. The new cell entry identification in the hotline management cell library is obtained (step 1006). Node B of the new cell The measurement system is obtained from the wireless resource control shared cell database and stored in the measurement data structure (steps 1 and 8). The measurement data structure is dynamically stored in the fast dynamic channel configuration call admission control (CAC) function. When the Fast Dynamic Channel Configuration Call Admission Control (CAC) function is popped out, it is established when the Fast Dynamic Channel Configuration Call Admission Control (CAC) function = Call and Delete. The Node B measurement system includes shared measurement and dedicated. The Node B shared measurement system includes uplink interference signal coding power information and downlink transmission carrier power. Then, the old cell identification system is based on the wireless transmission/reception unit (WTRU) identification from the radio resource management wireless transmission/reception unit. The (WTRU) database is retrieved; the coded composite transport channel (CCTrCH) information and the dedicated channel information system in the wireless link of the WTRU's wireless transmission/receiving unit (WTRU) The WTRU data base is retrieved from the radio resource management (step 1010) ° then 'determines the downlink coding signal power and the downlink shared control entity channel received signal coding power (P-CCPCH RS CP Whether the WTRU measurement is included in the request message (step ι〇12). If the WTRU measurement is not included in the request message, then 26 S ί ί Transfer touch unit (wtru) information 骡 =) Check whether all the dedicated channels are non-instant (step ^ have pro-all non-four (four), micro-secret label is the slave rod ΐ final _ _. , sound 2 5 Beixun to enter - step processing Wei. Should pay attention to only all the instant dedicated 5 ^ failure situation; when there is no wireless transmission / receiving unit (wtru) amount and the road is real time to achieve failure. For all exclusive ί = (==16), the low-rate temporary dedicated channel is configured for the uplink channel (steps 1〇22). After the channel is configured, the status flag is failed after the resource resource configuration fails. Case (step igi8) and function termination (step deletion). The information and physical channel information are recorded in the second-line transmission receiving list s (wtru) database' and the code is updated to the radio resource management cell database (steps 1〇26). The wireless resource control communication key includes the wireless link identification 'cell identification' and the second-order information and the downlink code synthesis synthesis channel information. The coded composite transmission frequency (CTrCH) information contains the code. Synthetic transmission channel (CCTr identification, coded composite transmission channel (CCTrCH) status) Rate 'allows dedicated T body, channel corruption. Dedicated physical channel information contains the 'duration period value and repetition length value when the dedicated physical channel is included. When the dedicated physical channel is used, the number of slot slots, the training sequence shift and the burst type, the transmission format, the coding index, and the brown information list. The coding information includes channel-based coding, and the coding uses the H-specific physical channel identification and the coded signal to interfere with the target. The 'ί 5 new code vector information contains the upper coded vector information and the downstream coded inward information. The ten-coded vector information contains the code recognition, coding and coding usage status. The following code vector information contains the code recognition and usage status. From 27 im ?, if there is a wireless transmission/connection 11 owing unit in the request message (Cao is measured (step H, the line transmission/reception unit (WTRU) measurement system is checked from the request message and the local storage is broken (step 1032) First ==κ:ΗΜΜStep 1034)' and the wireless transmission/connection unit=Bei system is based on the wireless transmission/reception unit (WTRU) identification, the connection direction and the temple, and the wireless transmission from the wireless resource management/ The receiving unit (^Ru) data day bL is closed (?肆]〇36). The type 2 selected to be coded composite transmission channel (CCTrCH) is obtained from the radio resource management wireless transmission/reception unit (^R cut database is obtained ( Step 1038). If the service type is immediate (step 1040), the H in the cell uses the time to store the mosquito (pour). If no slot is available (step, the flag is set to indicate the failure condition ( Step 1018) and the program is terminated (step 1020). The human cell towel has available time (step 1G44), and the highest required data rate of the encoded channel (CCTrCH) in the old cell is wirelessly transmitted from the radio resource management. / Receiver unit (WTRU) database is retrieved (step 1 〇 46). Request data rate encoding It is obtained (step 1〇48), and the current code synthesis, the physical channel (time slot and code) of the channel (CCTrCH) is configured and the best solution is recorded if found (step 1〇5〇). The configuration function in step 1050 is further discussed in detail in the third a and b diagrams. If the resource configuration fails (steps 1〇52), the status flag is set to indicate a failure condition (steps 1〇18) and the program Line stop 1020). If the resource configuration is successful (step 1052), it is determined whether there is an additional coded composite transmission channel in the current direction (downlink or uplink) to be checked. If g is to be checked, additional code synthesis The transmission channel, the next coded composite transmission frequency (CCTrCH) is selected (step 1056), and the process continues at step 1 〇 38. If there is no additional coded composite transmission channel to be checked (step 1054), then the decision is made. Whether the coded composite transmission channel has been checked (step 1058). If the uplink coded composite transmission channel has not been checked, then the first uplink coded composite transmission channel is (step 1060) and the process continues at step 1〇36. If all the uplink coded composite transmission channels are Considered (step 1〇58), the program continues as described above in step 28 1026. Then, with the latest configuration physical channel information, dedicated channel information, uplink time slot interference signal coding power (ISCP) information and power control information The Coded Transport Channel (CCTrCH) message is placed in the Wireless Link Attachment Response message (step 1028) 'The status flag is set to indicate success (step 丨〇3〇) and the program terminates (step 1020). The composite transport channel (CCTrCH) information includes, the code synthesis transmission channel (CCTrCH) identification and the dedicated physical channel information. The dedicated channel information includes time slot information table columns, repeat periods and repeat lengths. The dedicated physical channel time slot information includes the number of time slots, the training sequence shift and the burst type, the transmission format coding indicator presentation and the coding information list. Coding resource = contains channel coding and dedicated physical channel identification. Dedicated channel information package, multiple indicators and multiple selection indicators. The power control information includes the uplink target signal, the interference ratio, the maximum uplink signal interference ratio, the minimum uplink signal, and the transmission power. The most A downlink transmission and the minimum downlink transmission service type. If it is not immediate (step 1040), the available time slot in the new cell is determined (step 1062). If no time slot is available in the new cell (steps 1 - 64), the flag is set to indicate a failure condition (step 1018) and the program terminates 1020). If there is a time slot available in the new cell (steps 1〇64), then all the data applicable to the coded _it (CCTi€H) (four) fast material from the wireless resource management wireless ^ receiving unit ... Ding Ru) data The library is retrieved (steps 1 - 66) and the highest data is broken (steps 1 - 68). The code group for the selected data rate is obtained 1070), and the general dedicated channel for the coded composite transmission channel (CCTrCH) is configured and if the best solution is recorded (step). It should be noted that steps 1050 and 1〇72 are essentially the same; in non-instant service, the channel is temporary. If the resource configuration fails (step 1〇74), it is decided whether to check the additional data rate (step 1G76). If there is no other = even ¥' to be checked, the status flag is marked as a failure condition (step 1018) and the program is terminated (step 1020). If there are other rates of interest to be checked, then the process continues as in step 1054 above. It should be noted that any of the steps 1034, 1058 and 1060 (lower or upper) can be performed first. As described above, the lower direction is checked in preference to the upper direction. If the upper direction is checked in preference to the lower direction, the function 1〇〇〇 will operate in the same way. Steps 1050 and 1072 are related to the frequency of the call fast dynamic channel configuration algorithm. This core function 300 is signal independent and operates in the same manner as the third a and b pictures. The Wireless Link Reconfiguration Call Admission Control (CAC) Wireless Link Reconfiguration Quick Dynamic Channel Configuration Call Admission Control (CAC) program 11〇2 overview is shown in Figure _1. The fast dynamic channel configuration call admission control (CAC) control program 11 〇 2 includes three parts Γ 事先 pre-encoding configuration processing 1104, encoding configuration processing 11 〇 6 and post-coding configuration processing 1108. The pre-encoding configuration process 1104 can retrieve the wireless transmit/receive unit (WTRU) information from the wireless link reconfiguration preparation message 1110 and retrieve the no-transmission/receive from the helmet resource management unit (WTRU) database 1118'. ^Unit (WTRU) performance information. The wireless transmission/reception unit (wjru^ measurement and node B measurement system is retrieved from the radio resource control shared cell database 1112. The available time slot list is obtained from the radio resource management blister database 1116 and the coding group is obtained. The operation and maintenance radio resource management table database 1114 is retrieved. The code configuration process 1106 can check the available codes in the cells, generate a time slot sequence, and find the best solution for the code group (assign the code in the code group to the available time slot) And configuring the centralized coding from the coding vector in the radio resource management cell database 1116. The post-coding configuration processing 1108 can update the coding vector information in the radio resource management cell 1116 to record the configured physical channel. The radio resource management wireless transmit/receive unit (WTRU) database mg, and the recorded cross-channel parameter and power control information are stored in the radio link reconfiguration message 1120. In addition to processing and data exchange between data banks, data exchange It also happens directly between processing. WTRU measurement, Node B measurement, available time slot table in cells 'Specific data rate coding group list and WTRU performance information are transmitted from the pre-encoding configuration process 11〇4 to the coding configuration process 1106. Physical channel information (time slot table in each time slot) The column and channel coding are transmitted from the code configuration process 11〇6 to the post-code coding configuration process 1108. In the present invention, the function of the fast link reconfiguration fast dynamic channel configuration call admission control (CAC) program 1102 is adjusted. It becomes two sets of functions: the input is the signal-dependent function of the signal part, and the input signal independent of the signal message is independent. The purpose of separating the #-dependent function and the signal independent function is to increase the reusability of the signal independent function. The function of the pre-encoding configuration processing 11〇4 and the post-coding configuration processing 11G8 is the confusing. In contrast, the encoding configuration processing 1106 is a signal independent function. It should be noted that the function of the encoding configuration processing 1106 can be performed by other Other programs in the implementation of the RRC function are re-used. Fast dynamic channel configuration call for wireless link reconfiguration The flow chart of the Allow Control (CAC) program function is shown in Figures 12 and 13a_c. Figure 12 shows the main interface program for the Fast Dynamic Channel Configuration Call Admission Control (CAC) of the Wireless Link Reconfiguration Procedure.程序 Program 12 is enhanced by obtaining a wireless link reconfiguration preparation message (hereinafter referred to as "preparation message"; step u〇2). The message system contains the coded composite transmission channel team printing information. The coded composite transmission channel (9) will be added or modified, the dedicated message (the dedicated channel to be attached or modified), with or without the wireless yWTRU) (4) No _ service ^, line transmission / reception 5 ί The virtual TRU), the inner (four) system package and the interference signal 35 encoding power and the next main shared signal are corrected. The wireless job/receiving unit is reduced from the green, while the cell is recognized as τόη/ΐ, and the broken jaw is taken from the t-line transmission/reception unit (^RU) database (step. Wireless Beiyuan official cell 疋The entrance identification system of the tributary library is then obtained (step 57 '57271, step 1206). The data structure is established to locally store the measurements (steps 12〇8). This measurement data is dynamically stored in the fast dynamic channel. Configure Call Admission Control (CAC), which is established after the Fast Dynamic Channel Configuration Call Admission Control (CAC) feature is called' and is deleted in the Fast Dynamic Channel Configuration Call Admission Control (C^Q function is exited) The Node B measurement is then retrieved from the RRC resource sharing repository and stored locally (step 121 〇). The beta Node B measurement includes the shared metric and the dedicated measurement. The node Β measurement includes the uplink interference signal. Encoding power, downlink transmission carrier rotation. _ Β dedicated system includes downlink transmission coding power. Measurement data structure includes cell measurement record table. Cell measurement record system L 3 cell 7L identification and time slot measurement Record table column. Time slot measurement record package Time slot number two time slot interference signal coding power (ISCP), time slot carrier power, = code measurement record list. Code measurement record includes wireless transmission/reception unit RU) identification, wireless link identification, dedicated physical channel identification And the code transmission power. Right, the line transmission/reception unit (WTRU) measurement is included in the preliminary message, step 212), then the WTRU measurement system is taken from the preliminary message and is partially Stored in the measurement data structure (step 1214). The physical channel is configured for the coded composite transmission channel to be appended or modified (step 1216). Note that regardless of the coded composite transmission channel (CCTrcH) will be changed by η or G, it should be noted The encoding configuration procedure (the steps are the same. The encoding is discussed in more detail with the thirteenth a_e diagram below. If the physical channel configuration 1218), the status flag is set to indicate success (step = and the program terminates (step 1222)). If the physical channel configuration is successful (step), then the status flag is set to be successful as step 2 and the sequence is terminated (step 1222). Line transmission 7@@S (WTRU) measurement is not included in the preliminary message. 1 2 J212) 'Bei 1 decides whether all the dedicated channels are non-instant (step. Right all the special (four) road scales' position flag is set to indicate 32 1357271 as a failure condition (step 1224) and the program terminates ( Step 1222) If all the dedicated channels are non-instant (step 1228) ' then the wireless link reconfiguration type is determined (step 1230). The wireless link configuration type is based on the coded composite transmission channel in the wireless link (CCTrCH) To set. If the coded composite transmission channel (CCTrCH) is attached, the wireless link configuration type is set to "MODIFY (modified) ". If the wireless link configuration type is "MODIFY", then this is indicated as failure condition' and the status flag is set to indicate a failure condition (step 1224) and the program terminates (step 1222). This failure condition indicates that there is not enough information to process the request as much as possible. When the wireless link configuration type is "MODIFY" and the wireless link reconfiguration message does not include WTRU measurement, then the failure condition is reached. 0 The right wireless link reconfiguration type is "addition" Then, the low-rate temporary B dedicated channel is configured to the coded composite transport channel to be attached (step I232). The program continues as in the above step 1218. The thirteenth ac diagram shows the channel configuration program 13〇〇, which is borrowed The Call Forwarding Control (CAC) Wireless Link Reconfiguration Procedure 12〇〇I Step (2) 6 is used by the Quick Start Channel. The program begins with obtaining the preliminary message (Step (10) Green Touch Unit (WTRU_ and suspect)

The first downlink coded composite transmission channel is selected (step 〇 〇 # 次 次 次 次 WTRU WTRU WTRU WTRU WTRU WTRU WTRU WTRU ( ( ( ( ( ( ( ( ( WTRU WTRU WTRU WTRU WTRU WTRU WTRU WTRU WTRU WTRU WTRU WTRU WTRU The transmission channel (CCTrCH service type is obtained (step, and if the service type is immediate (four) 1314, the available available time slot in the cell is determined (step no right time slot available (step 1316)' then this flag is Failure condition = 13⁄4 storage slave transfer case (4) 1318) and program block ίίΙ (=) ϊ (ί^316) 'Selected code synthesis transfer _ 妯 ^ ^ 1 卞 () is determined (step 1322), and The data rate is required to be different ((10)1324). The calculated rate of the dragon rate is obtained by ^33 into the physical channel of the transmission channel (time slot and code). 'Shishi ^ soil solution is found if it is broken (step 1328) Step 1328 ^ Lit is discussed in more detail in the third figure above. If the resource is worthy of the dismissal (step if successful (step 133G)' then decide the current direction (additional code for the next or upper and ^^ check) Synthetic transmission channel (step to check the material code and secret transport ship, then the current side of the $ ^ ^ -,, flat code The channel is transmitted (CCTrCH) (step 1 and step 1310. If there is no additional coded composite transmission channel to be checked, whether the /, 疋, and code synthesis transmission channels have been checked (step 1336). If the upper frequency = not checked , the first uplink coded composite transmission frequency 'car (10), and the light sequence continues at step 1308. If all the above has been considered (step 1336), then the wireless transmission / receiving line transmission / reception - beta channel information The system is updated in the radio resource management material, and the silk vector is updated in the ., , , , and the spring source (the U40). The transmission/reception single S (WTRU) # The coded composite transmission channel CCTrdj is included with the latest n*2: 5th coded composite transmission channel information (for the composite transmission channel (CCTrCH) to be attached) and the downlink coded composite transmission Ιΐϊ added or modified. Touch the Lai Wei Wei code and the Jingshen channel, the coded composite transmission channel (CCTrCH) status, code synthesis ίίΪίϊ ^ ^ ^ use the channel information. The dedicated entity channel information contains the special channel Wei contains _, followed by sequence shift and cluster Type 1 Pan-coded indicator presentation and coding information table Column. Coded information channel = 3,, private entity channel identification and coded signal pair ί ί ί ί,, flat code 向 贫 包含 上 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含The mark and code use real quantity (4) contains the code recognition and code use status. The configuration feed and power control information is then placed in the wireless link re-source configuration (step flag is set to mark the success code information ^ 'f pour money Thanks to the target presentation rate, minimum = pass-through transmission power 'maximum downlink transmission function number to input ίί 'table large uplink signal to interference ratio and minimum uplink: set block synthesis transmission channel is calculated (four) called = Set to select and select =, the physical butterfly flag of the channel is set to indicate the situation of the defeat. The rate of the service is determined (step ^2), and the rate of the Bayes is selected (step 1354). ). The selected data dedicated frequency k is broken and the solution is recorded if it is found (step 1358). 35 Ί—3—57271 Note that steps 1328 and 1538 are essentially the same; in non-instant service, the dedicated channel is temporary. If the resource configuration fails (step 1360)' then decide if there is an additional data rate to be checked (step 1362). If there are no other data rates to be checked, the status flag is set to indicate a failure condition (step 1318) and the program ends (step 1320). If there are other data rates to be checked (step 1362)', then the next highest data rate is selected (step 1364) and the process continues at step 1356. If the data configuration is successful (step 1360), the program continues as in step 1332 above. It should be noted that steps 1306, 1336 and 1338, either in either direction (down or up) may be performed first. As described above, the lower direction is checked in the same manner as the upper direction is checked. The upper right is preferred over the next check' then the program 1300 will fall in the same manner. Steps 13 2 8 and 1358 are channel configuration functions for calling fast dynamic channel configuration calculations; this core function is signal independent and is illustrated in the above third a and b diagrams. Although the preferred embodiment is illustrated in the Third Generation Partnership Project (3GPP) Broadband Code Division Multiple Access (W-CDMA) system using the time division duplex mode, the embodiment can be applied to any hybrid code division multiple. Access (CDMAy Time Division Multiple Access (TDMA) communication system. Additionally, certain embodiments that typically use beam splitting in a proposed frequency division duplex (FDD) mode such as 3Gppw_CDMA are applicable to a code division multiple access system. While the invention has been shown and described with respect to the embodiments of the invention, many modifications and variations can be made by those skilled in the art without departing from the scope of the invention. The first picture shows the fast dynamic channel configuration call admission control (CAC) calculus overview established by the wireless link. The second ac diagram is the fast dynamic channel configuration call admission control (CAC) calculation process established by the wireless link shown in the first figure. Fig. 1a and 2b are flow chart diagrams of the channel configuration function of the fast dynamic channel configuration call admission control (CAC) calculus shown in Fig. 36. The four figures are fast dynamic channels according to the present invention. An overview of the escape program. ^5a and 5b are flowcharts of the fast dynamic channel configuration escape procedure shown in the fourth diagram. The sixth diagram shows the fast dynamic channel configuration shown in the fifth & The first part of the flow chart of the program configuration function. The seventh figure is an overview of the background interference reduction procedure for fast dynamic channel configuration in accordance with the present invention. Figures 8a and 8b show a flow chart of the fast dynamic channel configuration background interference reduction procedure shown in Figure 7. The ninth diagram is an overview of the Fast Link Dynamic Call Configuration Call Admission Control (CAC) procedure in accordance with the present invention. The tenth a-c diagram is a flow chart of the fast dynamic channel configuration call admission control (CAC) program shown in the ninth figure. Figure 11 is a diagram of a wireless link reconfiguration fast dynamic channel allocation, call admission control (CAC) procedure in accordance with the present invention. The eleventh picture shows the fast dynamic channel configuration call admission control (CAC) program flow chart shown in Figure 11. The thirteenth a-c diagram is a flow chart of the physical channel configuration procedure of the fast dynamic channel configuration call admission control (CAC) program of the wireless link reconfiguration shown in Fig. 12. [Main component symbol description] WTRU radio transmission/reception unit RAN radio access network CAC call admission control RRC radio resource control RAB radio access bearer ISCP interference k number coding power TFCI transmission format coding index C-RNC control radio network control TDD time division duplex CCTrCH code synthesis transmission channel 37

Claims (2)

1357271 VII. Patent application scope: The species is configured to perform fast dynamics 1. — 3? ffl JM Controlled wireless network controller (C-j^ a centralized database; means for receiving a request message; means for processing the request message; means for performing a prior art code configuration, comprising: Means for obtaining from the centralized database - the amount of node B is just; a device for checking the availability of a cell_a code group; a device code group for generating a sequence of available time slots of available time slots to the "time slot for interfering signal coding power for different solutions (ISCp) The device; and the solution of the solution has the lowest encryption code power solution as the best device for performing post-coding configuration. Means for reading WTRU performance information from the request message; and means for obtaining a code group from the centralized database, based on a required data rate included in the request message. 3. The C-RNC of claim 1 of the patent application, wherein the apparatus for performing pre-coding is provided in the apparatus: the apparatus in the needle magazine is configured; and the apparatus for establishing a response message. ==3曰: C, C 'where, the allowable control system is used to store the configuration in the centralized database. Γ Γ wireless transmission / touch unit (wtru) entity in the centralized Shocking, the request information of the * towel type library towel · The information used to record the physical channel information in the centralized database in 3 te_RNC 'which is used by the control system, for the second two And the device that establishes a response message includes: means for attaching the power to the response message; and means for attaching the physical channel information to the response message. ϋC.RNC of the third application patent scope, wherein the call is allowed to be added and the wireless key used to store the configuration information in the centralized database is used for the information message (4). Record the actual lion road information in the towel-type face towel. In the 3 items of c Wei, the towel is called _ system, ..., f chain,,,. The device for adding a response message includes: means for additionally encoding the synthesized transmission channel information to the response message; means for attaching the physical channel information to the response message; , for attaching the dedicated channel information The device to the response message; the uplink time slot interference signal coding power (ISCP) ft to the device that is back to you 5; and the device for adding power control information to the response message. 8. If the application is to be turned over, the device is pre-coded with 39 T35727-1. The device comprises: means for receiving a request message; means for processing the request message; A device for retrieving system information from the centralized database. 9. The C-RNC of claim 8 wherein the call admission control system is used for attachment of a wireless link and for processing the request message. The apparatus includes: means for reading a wireless transmit/receive unit (WTRU) measurement from the request message; and for retrieving the WTRU identification, new wireless link identification from the request message And the device for identifying new cells. 10 · As C-RNC of claim 8 of the patent scope, the call admission control system is used for the attachment of the wireless link and is used to retrieve the system from the centralized database. The device of information includes: means for retrieving Node B measurements of new cells; means for obtaining old cell identification; for reading a WTRU encoded composite transmission channel (CCTrCH) News Means for utilizing dedicated channel information; means for retrieving WTRU performance information; means for retrieving a list of available time slots in the new cell; means for retrieving data rates of CCTrCHs; and for retrieving the requested data rate A device for encoding a list of groups. The C-RNC of claim 8 of the patent scope, the call admission control system uses the reconfiguration of the wireless link, and the device for processing the request message includes: # s for reading the wireless transmission/reception unit (WTRU) measurement from the request message, and A reading the wireless transmission 7 receiving unit (WTRU) coded transmission channel (CCMH) scale from the request message (4) The device of the channel is in the 8th item of the ίΐίί利 range ["the order allows the call to be used by the control system, ... the spring chain, the re-listening" and is used in the collection system from the collection database. 40 1357271 The device of the information includes: means for retrieving WTRU performance information; means for retrieving Node B measurements from the centralized repository; for retrieving a list of available time slots from the centralized repository Means; and means a list of the cable group is used for encoding from the centralized database object. 13. Hi-F is the C-RNC of the first item, wherein the call control is used for the heavy-duty connection of the hot-wire chain, and the device that performs the Wei-code configuration is not required to be updated. A device for wireless data transfer/receiving unit (WTRU) information, and a device for establishing a response message. M. For example, please refer to the scope of the 13th item, the device update package 3 is used to record the new coded composite transmission channel (CCTrCH) information and related channel channel configuration information in the centralized database. Device. , === 13th TM, state-created-response device for attaching power control information to the response message; and means for attaching physical channel configuration information to the response message. a control radio network controller (C-RNC) configured to perform fast dynamic channel configuration (F_dca) call admission control, the C-RNC comprising: a radio resource control (RRC) shared cell a database; an operation and maintenance (OAM) RRM list database; an RRM cell database; an RRM wireless transmission/receiving unit (WTRU) database; and a "device for performing prior encoding configuration, which utilizes The RRC shared cell database, the OAM RRM list database, and the RRM cell database are executed. 17. The C-RNC of claim 16 further includes: means for performing post-coding configuration The RRM cell library is executed with the RRM WTRU database and the RRM WTRU database. 18. The C-RNC of claim 16 further includes: means for performing code configuration, which utilizes The RRM cell database is executed with the RRM WTRU database.